Autonomous navigation of indoor mobile robots using a global ultrasonic system

Soo-Yeong Yi; Byoung-Wook Choi

doi:10.1017/S0263574704000335

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Autonomous navigation of an indoor mobile robot, using the global ultrasonic system, is presented in this paper. Since the trajectory error of the dead-reckoning navigation increases significantly with time and distance, the autonomous navigation system of a mobile robot requires self-localization capa-bility in order to compensate for trajectory error. The global ultrasonic system, consisting of four ultrasonic generators fixed at a priori known positions in the work space and two receivers mounted on the mobile robot, has a similar structure to the well-known satellite GPS(Global Positioning System), which is used for the localization of ground vehicles. The EKF (Extended Kalman Filter) algorithm is utilized for self-localization and autonomous navigation, based on the self-localization algorithm is verified by experiments performed in this study. Since the self-localization algorithm is efficient and fast, it is appropriate for an embedded controller of a mobile robot.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Wail Gueaieb and Suruz Miah 2007. Experiments on a novel modular cost-effective RFID-based mobile robot navigation system. p. 1658.

Zhou, Yu and Liu, Wenfei 2007. Preliminary Research on Indoor Mobile Robot Localization using Laser-activated RFID. p. 78.

Gueaieb, Wail and Miah, Md. Suruz 2008. Mobile robot navigation using particle swarm optimization and noisy RFID communication. p. 111.

Azenha, Abílio and Carvalho, Adriano 2008. Dynamic analysis of AGV control under dead-reckoning algorithm. Robotica, Vol. 26, Issue. 5, p. 635.

Kim, Jin-Hwan and Shin, Dong-Suk 2008. Implementation of a WIPI-based Intelligent Home Service Robot. The Journal of the Korea Contents Association, Vol. 8, Issue. 5, p. 19.

Gueaieb, W. and Miah, M.S. 2008. An Intelligent Mobile Robot Navigation Technique Using RFID Technology. IEEE Transactions on Instrumentation and Measurement, Vol. 57, Issue. 9, p. 1908.

Bendjilali, K. Belkhouche, F. and Jin, T. 2008. Exponential navigation functions with a learning algorithm. p. 1232.

Jo, Hyun-Gyu Lee, Ki-Soo and Jang, Choon-Seo 2008. Efficient Distributed Conference Architecture in SIP Environment. The Journal of the Korea Contents Association, Vol. 8, Issue. 5, p. 1.

Ambrosch, Karina Humenberger, Martin Kubinger, Wilfried and Steininger, Andreas 2008. Extending two non-parametric transforms for FPGA based stereo matching using bayer filtered cameras. p. 1.

Yi, Soo-Yeong 2008. Global ultrasonic system with selective activation for autonomous navigation of an indoor mobile robot. Robotica, Vol. 26, Issue. 3, p. 277.

Zu, YunFei Choi, MunGyu and Lee, JangMyung 2009. An indoor localization system in a multiblock workspace. Artificial Life and Robotics, Vol. 13, Issue. 2, p. 493.

Pei, Xuming Liu, Jie Zhang, Duanqin Wang, Liangwen and Wang, Xinjie 2010. A robot ultrasonic mapping method based on the gray system theory. p. 1245.

Eom, Wesub Park, Jaehyun and Lee, Jangmyung 2010. Hazardous area navigation with temporary beacons. International Journal of Control, Automation and Systems, Vol. 8, Issue. 5, p. 1082.

Park, JaeHyun Choi, MunGyu Zu, YunFei and Lee, JangMyung 2010. Indoor localization system in a multi-block workspace. Robotica, Vol. 28, Issue. 3, p. 397.

Park, Jaehyun Choi, Sunghee and Lee, Jangmyung 2011. Intelligent Robotics and Applications. Vol. 7101, Issue. , p. 594.

Park, Jaehyun Hyun Lee Yoseop Hwang Seoyoung Hwang and Lee, Jangmyung 2011. Beacon scheduling for efficient localization of a mobile robot. p. 870.

Govindarajan, Madhu Soodhanan Wang, Junmin Post, Bill and Fox, Andrew 2013. Target Design and Recognition for 2-D Localization of Indoor Mobile Robots Using a Laser Sensor. IFAC Proceedings Volumes, Vol. 46, Issue. 5, p. 67.

Kim, Seong Jin and Kim, Byung Kook 2013. Dynamic Ultrasonic Hybrid Localization System for Indoor Mobile Robots. IEEE Transactions on Industrial Electronics, Vol. 60, Issue. 10, p. 4562.

Park, Jaehyun and Lee, Jangmyung 2014. Beacon selection and calibration for the efficient localization of a mobile robot. Robotica, Vol. 32, Issue. 1, p. 115.

Roy, Subhashis Bag, Joyashree and Subir Kumar Sarkar 2014. Design and VLSI implementation of a robot navigation processor deploying CORDIC based anti-collision algorithm with RFID technology. p. 1.

Download full list

Article contents

Autonomous navigation of indoor mobile robots using a global ultrasonic system

Abstract

Keywords

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Autonomous navigation of indoor mobile robots using a global ultrasonic system

Abstract

Keywords

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests